bioretention and rain garden protocol development

Bioretention and Rain Garden Protocol Development

Paul Marrinan – City of PuyallupJoy Rodriguez – City of PuyallupAaron Clark – Stewardship PartnersBob Simmons – WSU ExtensionChrys Bertolotto – WSU ExtensionPhilomena Kedziorski – WSU ExtensionErica Guttman – WSU ExtensionAnand Jayakaran – WSU & WA Stormwater Center

Technical Advisory Committee:Apryl Hynes (City of Everett); Leska Fore (Puget Sound Partnership); Ben Alexander (Sound Native Plants); Melissa Buckingham (Pierce Conservation District); Cari Simpson (Urban System Design); Mieke Hoppin (City of Tacoma); Curtis Hinman (Herrera Inc.); Doug Hutchinson (City of Seattle)

Introduction and Overview of ProjectGoal: Develop a rain garden and bioretention assessment protocol to monitor basic functions of rain gardens and bioretention facilities.• Assess factors influencing their success and failure.• Protocol is being developed to allow for:

• Ease of implementation• Repeatability across large geographic scales• Consistent data from multiple implementers• Provide data of scientific and adaptive management value.

• Social Science Survey of Public Perceptions and factors influencing those perceptions

Overview of methods for the assessment protocol• Literature review of monitoring and assessment methods• Development of a big wish list• Version 1 protocol, intentionally include too many metrics

• Implement and evaluate• Version 2- pair down v1 based on data quality and user feedback

• Also create a “Rapid Assessment Protocol”• Implement and evaluate

• Version 3 full and rapid protocols: pair down v2 even further

Literature Review & Master Metrics ListRain Garden / Bioretention Effectiveness

Assessment Project Goals 1. What attributes of rain garden/bioretention functionality measured by volunteers and staff through visual observations and simple field or lab

tests correlate best with functional success of the system? 2. What construction activities and maintenance actions identifiable by volunteers and staff have the greatest correlation with functional success of a

rain garden/bioretention facility? 3. What attributes of rain garden/bioretention facilities correlate best with landowner perceptions of functional success, as measured by volunteers

and staff through surveys and interviews?

Master List Project Goal 1

Project Goal 2

Project Goal 3

Overarching Research Question

Function Assessed

Metric Catego

Assessment Methods

Recommendation for Use

Reason for Not Including

X

infiltration / Flow Control

Hydrology

Artificial Drawdown / Simulated Storm Testing

No

Requires access to water surges and very intrusive.

X

Infiltration

Hydrology

Infiltrometer Testing of Soils

No

Results are too variable, literature does not support

X

Infiltration

Hydrology

Continuous monitoring of inflow / outflow / overflow

No

Requires access to modeling equipment

X

infiltration

Hydrology

Bypass/overflow frequency

No

Storm sampling not viable for volunteer assessment

• Version 1 of the assessment protocol had an approximate total of 212 parameters (9 p.)

• Version 2 of the assessment protocol had a total of 170 parameters (7 p.)

• The rapid assessment protocol had a total of 106 parameters. (5 p.)

Use of Volunteers and Training

Training and Assessments

• Version 1 – 35 Volunteers were provided with 8 hours of training (Oct 2016 - Snohomish, Thurston and Jefferson)

• Volunteers assessed 14 sites, working in teams of 2-3, with each site repeated by a different team of volunteers to assess repeatability.

• Version 2 – 77 Volunteers were provided with 8 hours of training (July 2017 - Snohomish, Jefferson, Thurston, and Pierce)

• Volunteers assessed 41 sites, working in teams of 2-3, with each site repeated with either the rapid or full assessment by a different team (version 2).

• 35 Rapid and 47 Full assessments were completed in all counties (version 2). • 67 assessments were completed by trained volunteers (version 2). • 15 assessments were completed by untrained volunteers (version 2).

Duplication of assessments

Training Level Full Protocol (47)

Rapid Protocol (35)

Trained (67) 47 20

Untrained (15) 0 15

Version 2 Assessments

Analysis of pilot data - version 2Summary of Cosine Similarity Values for repeated sites and different sites

Type of repeated assessment Median of repeated site similarity (range) and sample size

Median of different site similarity (range) and sample size

Full Protocol w/ Trained Volunteers replicates 0.78 (0.49-0.97) n=8 0.5 (0.14-0.92) n=56

Full Protocol w/ Trained Volunteers vs. Rapid Protocol w/ Trained Volunteers

0.78 (0.32-0.95) n=18 0.70 (0.15-0.96) n=306

Full Protocol w/ Trained Volunteers vs.Rapid Protocol w/ Untrained Volunteers

0.81 (-0.05-0.95) n=12 0.52 (-0.01-0.88) n=132

Rapid Protocol w/ Trained Volunteers vs.Rapid Protocol w/ Untrained Volunteers

0.94 (0.84-0.97) n=3 0.675 (0.58-0.9) n=6

Findings from these results:

• The protocol provides replicable results (strong consistency in assessments of the same site between different implementers)

• Extensive training is not necessary(consistency in assessments between trained and untrained implementers)

• The rapid assessment should provide the level of detail necessary to indicate if further actions are needed at a site, as well as to provide direction for future maintenance and some design considerations.

Parameter Measurement Metric Flagging ConditionHydrology

Rainfall Two Days Ago (in)LINK WITH STANDING WATER

Overflow 1, 2, 3Directs water away? Yes = Y, No = N, None = X "N" TRIGGERS

Inflow BlockageNone, Trace = <.5%, 0 .5-5%, 6-25%, 26-50%, 51-75%, 76-95%, >96%

YELLOW FLAG 6-25% BLOCKEDRED FLAG > 25% BLOCKED

Overflow Blockage

None, Trace = <.5%, 0 .5-5%, 6-25%, 26-50%, 51-75%, 76-95%, >96%

YELLOW FLAG - 6-25% BLOCKEDRED FLAG >25% BLOCKED

ErosionZone 1, 2, 3 RED FLAG - MODERATE OR

EXTENSIVE EROSION

Hydrology DescriptionDescribe concerns not identified through other metrics

DETERMINE IF CONCERN IS A PROBLEM NEEDING CORRECTION

Flagging Criteria

Hydrology Parameters # of Red Flags

% Sites Red flagged

Mulch depth zone 1A 45 96%

Mulch depth zone 1C 43 91%

Mulch depth zone 2 43 91%

Mulch depth zone 1B 41 87%

Mulch depth zone 3 41 87%

Cover bare ground zone 1 9 19%

1 Blocked inflow 7 15%

Cover bare ground zone 3 7 15%

Cover bare ground zone 2 6 13%

Overflow concerns 5 11%

2 Blocked inflows 5 11%

Blocked sheet inflow 5 11%

Vegetation Parameters # of Red Flags

% Sites Red flagged

Evergreen plant vigor zone 1 35 74%

Groundcover plant vigor zone 1 34 72%

Groundcover plant vigor zone 2 27 57%

Evergreen plant vigor zone 2 22 47%

Herbaceous plant vigor zone 3 20 43%

Herbaceous plant vigor zone 1 19 40%

Groundcover plant vigor zone 3 19 40%

Deciduous plant vigor zone 1 17 36%

Herbaceous plant vigor zone 2 17 36%

Evergreen plant vigor zone 3 15 32%

Deciduous plant vigor zone 2 14 30%

Problem plants zone 2 7 15%

Problem plants zone 3 7 15%

Problem plants zone 1 5 11%

Additional Findings:

• The assessment protocol can provide an overall indication of a rain garden or bioretention facility’s current state and inform the appropriate maintenance action needed to restore some aspects of effectiveness.

• The vegetation metrics in version 1 would inform future design considerations and long term management strategies. For that reason, protocol version 1 may be useful for specific research and design goals.

• Photo points utilized in version 1 would provide long term records and may provide some clarifying information on specific concerns for asset management staff without requiring an additional site visit, however is not necessary for basic assessment purposes.

• Vegetation assessment information can be variable between assessment implementers and seasons. Vegetation data should be interpreted with an awareness of its inherent variability under this protocol.

Protocol: What it can do

Can do:• Flag important functional issues

• Hydrology• Vegetation and Public Perception

• Flag facilities that are prone to issues (general or specific)

• Indicate the issues and guide remediation

• Be implemented with little or no training and at a low relative cost

• Help standardize assessment data and identify common issues worth tackling at a regionally coordinated scale.

Protocol: What it can’t do

Can’t do:• Precisely quantify hydrologic

performance• Precisely quantify overall

effectiveness of one facility nor the bioretention as a whole

• Quantify treatment performance

Tools and materials available & coming soon• Final protocols

• Full protocol• Rapid protocol• Training materials and instructions and datasheets (Excel)

• A cohort of WSU Extension professionals available to support future implementation across the region (local or larger scales)

• Literature review: Social Science Study on Public Perceptions; • Available on the SAM website early Q2 2019.

How to use the protocol (jurisdictions)

• Implement it yourself with existing staff• Addition of assessment protocol (rapid or full or your own a la carte version) to

existing asset management program, maintenance program, or monitoring program• Create your own community-based/ volunteer/ internship/ job training program

• Create a monitoring/assessment program in partnership with a local group• WSU Extension: ready to go volunteer programs: Master Gardeners, Stream

Stewards, Beach Watchers etc..• Others: DIRT Corps; Stream teams; Conservation Districts…

Rain GardenCommunity Survey Summary

Chrys Bertolotto

WSU Snohomish County Extension

chrys@wsu.edu; 425 357-6020

Demographics

58 Respondents

59% own one rain garden; 33% own two.

72% of rain gardens are 1 or 2 years old.

87% own a rain garden; 86.5% are private residential landowners; 91% are original rain garden owners.

48% are from King County, with Snohomish and Thurston making up an additional 33%.

Maintenance Perceptions

86% feel their rain gardens are very well or moderately well maintained.

81% believe they (“self”) are responsible for maintenance, with 8% hiring maintenance.

Less than 5 hours Not needed

Mulching Fertilizing

Removing Trash / Clearing Inflow / Outflow

Insect / Animal Issues

Watering

Pruning Sign Maintenance

Monitoring Removing Dirt

Replacing Plants

Time PER YEAR to complete various maintenance tasks. Weeding was omitted from the maintenance task list and was mentioned by four individuals. Two other time options were given (5 – 9 hours and more than 10 hours) and were not a majority selection for any task.

Issue Far Surpasses Expectations

Exceeds Expectations

Meets Expectations

Doesn’t Meet Expectations

Far Below Expectations

Overall 9.3% 48.8% 39.5% 0% 0%Beautify Yard / Landscape

18.6% 30.2% 48.8% 2.3% 0%

Create Green / Friendly Neighborhood Spaces

4.9% 12.2% 75.6% 4.9% 2.4%

Required by Permit

3.1% 5.1% 84.4% 0% 9.4%

Prevent Flooding on Property

7.3% 31.7% 61% 0% 0%

Create Wildlife Habitat

9.3% 20.9% 67.4% 2.3% 0%

Reduce Water Pollution

16.3% 25.6% 55.8% 0% 2.3%

How do Rain Gardens Meet Expectations of Respondents?

The Future: Next steps for regional coordinated monitoring and assessment• Data collection mobile app• Additional modules:

• Photographs• Overflow/bypass monitoring• Web based database for extensive information about rain gardens and

bioretention facilities in each jurisdiction

Thank You!!